Affiliation:
1. School of Chemical Sciences University of Auckland Auckland 1010 New Zealand
2. School of Biological Science University of Auckland Auckland 1010 New Zealand
3. Maurice Wilkins Centre for Molecular Biodiscovery University of Auckland Auckland 1010 New Zealand
4. Te Pūnaha Matatini Auckland 1142 New Zealand
5. The MacDiarmid Institute for Advanced Materials and Nanotechnology Victoria University of Wellington Wellington 6012 New Zealand
Abstract
AbstractMarine bromopyrrole alkaloids are a diverse family of natural products with a large array of biological applications. The mukanadin family is a group of molecules consisting of seven members (mukanadin A‐G) that possess a range of biological activities. Inhibition of serotonergic signaling has been demonstrated by mukanadin B derivatives, presenting this chemical scaffold as a candidate for further SAR exploration. A library of thirteen novel mukanadin B and D derivatives with structural variation targeted at the pyrrole ring, central linker and hydantoin ring, were synthesized. These analogues were subsequently assessed for serotonergic antagonism, in addition to natural products, mukanadin B, D, F and 9‐hydroxy mukanadin B. A collection of compounds exhibited significant 5‐HT1A signaling, including five of the novel derivatives and two of the naturally occurring bromopyrroles, mukanadin B and F. Particular SAR information could be determined from these results, such as modification of the pyrrole ring being a well‐tolerated strategy for improving serotonergic inhibition. Other changes to the pharmacophore led to significant reduction in activity such as saturation of the linker region, or no conclusive improvement in inhibitory activity such as a 9‐OH group or replacement of the hydantoin ring with a triazole moiety.